CN103839741B - A kind of modified node method producing the cell-shell standing part of the squeezing machine of bulb - Google Patents

Abstract

A kind of modified node method producing the cell-shell standing part of the squeezing machine of bulb, comprise frame, rotating disk, number cover filament and glass tube clamping device, upper filament station, upper cell-shell station, filament and cell-shell fire clamp station, semi-finished product blanking station, filament and glass tube clamping device comprise filament folder, cell-shell presss from both sides, filament folder comprises fixing sub-folder, movable sub-folder, spring, it is characterized in that at upper cell-shell station, filament and cell-shell are fired between clamp station and are provided with cell-shell positional stations, cell-shell positional stations comprises the first movable device tracheae locating fork and glass bulb locating fork, frame is provided with cell-shell folder drive unit.The present invention compared with the prior art, have ensure the position of cell-shell in cell-shell silk folder accurately, ensure the advantage of constant product quality.

Description

A kind of modified node method producing the cell-shell standing part of the squeezing machine of bulb

Technical field

The present invention relates to a kind of electric light source process units.

Background technology

The squeezing machine of existing production bulb, all includes filament operation, upper cell-shell operation and clamp operation, and after upper cell-shell, by the impact of operator, the often position to some extent deviation of cell-shell in cell-shell folder, like this, causes product quality portion to stablize.

Summary of the invention

Goal of the invention of the present invention be to provide a kind of position ensureing cell-shell accurately, ensure constant product quality the modified node method of cell-shell standing part of squeezing machine of production bulb.

The present invention realizes like this, comprise frame, be arranged on the rotating disk driven by power in frame, be arranged on the number cover filament on rotating disk and glass tube clamping device, along the upper filament station that the frame of disk peripheral is arranged, upper cell-shell station, filament and cell-shell fire clamp station, semi-finished product blanking station, the filament that filament and glass tube clamping device comprise with filament lifting arm presss from both sides, be positioned at the cell-shell folder of filament folder top, filament folder comprises the fixing sub-folder with cooling duct be positioned at inside rotating disk, the movable sub-folder with cooling duct and driving handle outside fixing sub-folder is connected to by shaft swing, movable sub-folder is made to abut against spring on fixing sub-folder, the upper and lower cross-under of filament lifting arm is on fixing sub-folder, it is characterized in that at upper cell-shell station, filament and cell-shell are fired between clamp station and are provided with cell-shell positional stations, cell-shell positional stations comprises the first movable device, the tracheae locating fork simultaneously driven by the first movable device and glass bulb locating fork, glass bulb locating fork is the plate object of fluting in the middle of, the width of groove is greater than the width between lamp base and is less than the width of glass bulb, frame is provided with cell-shell folder drive unit.

During work, take offence pipe locating fork and glass bulb locating fork of first movable apparatus, with moves ahead, tracheae locating fork is stuck on the thin wireway of glass bulb, glass bulb locating fork is positioned at below glass bulb, then cell-shell folder drive unit drives glass bulb folder to open, and glass bulb drops on glass bulb locating fork, and cell-shell folder drive unit resets, first movable device resets, thus completes the location of glass bulb.

Before upper cell-shell station, be provided with filament detect station, filament detect station comprise the second movable device, driven by the second movable device move up and down device, have the filament detector moving up and down device and drive, filament detector is a conducting rod.

During work, second movable device drive moves up and down device and moves ahead, conducting rod is made to inject below filament, then move up and down on apparatus, with moving conductive rod and move, if filament is intact, then conducting rod can touch filament, otherwise, whether whether conducting rod would not touch filament, have detection current lead-through to detect filament intact by detection.

Filament and cell-shell are fired clamp station and are comprised filament support and fire mechanism and cell-shell clamp mechanism, filament support is fired mechanism and is comprised two cover supports and fire movable device, the cone and a fire row that movable device drives is fired by wherein a set of support, another cone and another fire row of the drive of movable device is fired by another set of support, cell-shell clamp mechanism comprises two cover cell-shells and fires movable device, fire by wherein a set of cell-shell the mother that movable device drives to press from both sides, the sub-folder of movable device drive is fired by a set of cell-shell, frame is provided with power driving lever.

During work, fire row is on fire, burnt by cell-shell red, then, two cover supports are fired movable device and are driven two cone relative movements, a support is extruded below filament, above the recess of filament lifting arm upper end, supported by filament, the action of power driving lever, dials by filament lifting arm, then two cover cell-shells fire movable device relative movement, by mother folder and sub-folder by cell-shell bottom clamp.

The present invention compared with the prior art, have ensure the position of cell-shell in cell-shell silk folder accurately, ensure the advantage of constant product quality.

Accompanying drawing illustrates:

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation of filament and glass tube clamping device;

Fig. 3 is the structural representation of lamp base positional stations;

Fig. 4 is filament positional stations schematic diagram;

Fig. 5 is the structural representation of cell-shell positional stations;

Fig. 6 is the structural representation that filament detects station;

Fig. 7 is the structural representation that filament and cell-shell fire clamp station;

Fig. 8 is the structural representation of the glass bulb locating fork of Fig. 5;

Fig. 9 is the structural representation of the tracheae locating fork of Fig. 5;

Figure 10 is the structural representation that glass bulb detects station;

Figure 11 is the structural representation that filament extracts station.

Embodiment:

Now in conjunction with the accompanying drawings and embodiments the present invention is described in further detail:

As shown in Figure 1, the present invention includes frame 1, be arranged on the rotating disk 2 driven by power in frame 1, be arranged on the number cover filament on rotating disk 2 and glass tube clamping device 3, along the upper filament station 4 that the frame 1 of rotating disk 2 periphery is arranged, upper cell-shell station 5, filament and cell-shell fire clamp station 6, semi-finished product blanking station 7, as shown in Figure 2, filament and glass tube clamping device 3 comprise the filament folder 9 with filament lifting arm 8, be positioned at the cell-shell folder 10 above filament folder 9, filament folder 9 is for clamping filament 45 lamp base, filament lifting arm 8 is for promoting filament 45, cell-shell folder 10 is for clamping the cell-shell 47 with wireway 46, the gas blow pipe 49 driven by upper and lower power mobile mechanism 48 is provided with above wireway 46, as Fig. 2, shown in 3, filament folder 9 comprises the fixing sub-folder 56 with cooling duct be positioned at inside rotating disk 2, the movable sub-folder 59 with cooling duct and driving handle 58 be connected to outside fixing sub-folder 56 is swung by rotating shaft 57, movable sub-folder 59 is made to abut against spring 60 on fixing sub-folder 56, filament lifting arm about 8 cross-under is on fixing sub-folder 56, the lateral surface of fixing sub-folder 56 is provided with and hides lamp base shallow slot 61, as Fig. 1, shown in 5, at upper cell-shell station 5, filament and cell-shell are fired between clamp station 6 and are provided with cell-shell positional stations 73, cell-shell positional stations 73 comprises the first movable device 76 of transversely guide rail 75 movement driving cylinder 74 to drive by left and right, driven by the first movable device 76 and drive cylinder 77 up and down, the slide block 79 along vertical guide 78 movement on the first movable device 76 driven by driving cylinder 77 up and down, be fixed on tracheae locating fork 80(on slide block 79 as shown in Figure 9) and glass bulb locating fork 86, as shown in Figure 8, glass bulb locating fork 86 is plate objects of fluting 83 in the middle of, the width of groove 83 is greater than the width between lamp base 84 and is less than the width of glass bulb 85, frame 1 is provided with and drives the drive rod 82 of cell-shell folder 10 to control the cell-shell folder drive unit 32 that cell-shell presss from both sides 10 foldings.

Upper filament station 4, on be provided with lamp base positional stations 62 between cell-shell station 5, lamp base positional stations 62 comprises that the filament folder be arranged in frame 1 opens driving mechanism 63, the cylinder 64 be arranged in frame 1, the localization handspike 65 that driven by cylinder 64.

As shown in Figure 4, at upper cell-shell station 5, filament positional stations 81 is provided with between lamp base positional stations 62, filament positional stations 81 comprises the 3rd movable device 66 of the transversely guide rail A movement driven by cylinder 64 be arranged in frame 1, the long-range cylinder 67 driven by the 3rd movable device 66 and short distance cylinder 68, the slide block 70 along vertical guide 69 movement on the 3rd movable device 66 is driven by long-range cylinder 67, hook 71 is chosen in a pair pneumatic folding be arranged on slide block, be arranged on the filament lifting arm power-driven mechanism 72 in frame 1, short distance cylinder 68 is positioned at below slide block 70.

As shown in Figure 6, before upper cell-shell station 5, be provided with filament detect station 87, filament detect station 87 comprise transversely guide rail 89 movement driven by cylinder 88 the second movable device 90, driven by the second movable device 90 move up and down device 91(cylinder), have slide block 93, the filament detector 94 be fixed on slide block 93 along vertical guide 92 movement on the second movable device 90 that move up and down device 91 and drive, filament detector 94 is conducting rods.

As shown in Figure 7, filament and cell-shell are fired clamp station 6 and are comprised filament support and fire mechanism 95 and cell-shell clamp mechanism 96, filament support is fired the support that mechanism 96 comprises transversely guide rail 98 movement that two covers are driven by cylinder 97 and is fired movable device 99, the cone 100 and a fire row 101 that movable device 99 drives is fired by wherein a set of support, another cone 100 and another fire row 101 that movable device 99 drives is fired by another set of support, the cell-shell that cell-shell clamp mechanism 96 comprises transversely guide rail 103 movement that two covers are driven by cylinder 102 fires movable device 104, fire by wherein a set of cell-shell the mother that movable device 104 drives and press from both sides 105, the sub-folder 106 that movable device 104 drives is fired by a set of cell-shell, frame 1 is provided with the power driving lever 107(cylinder resetted by filament lifting arm 8).

Before clamp station 6 fired by filament and cell-shell, be provided with glass bulb and detect station 108 and filament extraction station 109, as shown in Figure 10, glass bulb detects the support 112 that station 108 comprises transversely guide rail 111 movement driven by cylinder 110, be slidably arranged in the feeler lever 115 with only face 114 on the guide rail 113 of support 112, being provided with below of guide rail 113 of support 112 stops face 116, the only face 114 of feeler lever 115 is positioned at after the only face 116 of support 112, tension spring 117 is provided with between support 112 and feeler lever 115, feeler lever 115 is provided with recess 118, the support 112 of corresponding recess 118 is provided with detection probe 119, as shown in figure 11, filament extracts the shelf 122 that station 109 comprises vertically guide rail 121 movement driven by cylinder 120, the adjustable shelf 125 of cross slide way 124 movement along shelf 122 driven by cylinder 123, be arranged on adjustable shelf 125 by cylinder 126 and tooth bar the filament power clamp 129 that drives of gear 128, the frame 1 that the driving handle 58 of filament folder 9 is other is provided with filament folder and opens driving mechanism 63, frame 1 is provided with the power driving lever 107(cylinder resetted by filament lifting arm 8).Like this, cylinder 110 drives support 112 to move toward the cell-shell 85 on rotating disk 2 together with feeler lever 115, after feeler lever 115 hits cell-shell 85, feeler lever 115 no longer moves, and support 112 continues mobile, the recess on feeler lever 115 is made to face toward detection probe 119, thus determine that the corresponding station on rotating disk 2 has cell-shell 85, so that filament and cell-shell fire clamp station 6 action, ablating work procedure is carried out to cell-shell, otherwise filament and cell-shell are fired clamp station 6 and be just failure to actuate, to avoid high temperature, the damage of clamp station 6 is fired to filament and cell-shell.If cell-shell do not detected, filament extracts station 109 and is just taken off by the filament on filament folder 9 and be placed on the plate 127 below filament extraction station 109.

Claims (5)

1. produce the modified node method of the cell-shell standing part of the squeezing machine of bulb for one kind, comprise frame, be arranged on the rotating disk driven by power in frame, be arranged on the number cover filament on rotating disk and glass tube clamping device, along the upper filament station that the frame of disk peripheral is arranged, upper cell-shell station, filament and cell-shell fire clamp station, semi-finished product blanking station, the filament that filament and glass tube clamping device comprise with filament lifting arm presss from both sides, be positioned at the cell-shell folder of filament folder top, cell-shell folder is for clamping the cell-shell with wireway, the gas blow pipe driven by upper and lower power mobile mechanism is provided with above wireway, filament folder comprises the fixing sub-folder with cooling duct be positioned at inside rotating disk, the movable sub-folder with cooling duct and driving handle outside fixing sub-folder is connected to by shaft swing, movable sub-folder is made to abut against spring on fixing sub-folder, the upper and lower cross-under of filament lifting arm is on fixing sub-folder, it is characterized in that at upper cell-shell station, filament and cell-shell are fired between clamp station and are provided with cell-shell positional stations, cell-shell positional stations comprises the first movable device, the tracheae locating fork simultaneously driven by the first movable device and glass bulb locating fork, glass bulb locating fork is the plate object of fluting in the middle of, the width of groove is greater than the width between lamp base and is less than the width of glass bulb, frame is provided with cell-shell folder drive unit.

2. the modified node method of the cell-shell standing part of the squeezing machine of production bulb according to claim 1, it is characterized in that before upper cell-shell station, be provided with filament detects station, filament detect station comprise the second movable device, by the second movable device drive move up and down device, by the filament detector moving up and down device and drive, filament detector is a conducting rod.

3. the modified node method of the cell-shell standing part of the squeezing machine of production bulb according to claim 1 and 2, it is characterized in that before clamp station fired by filament and cell-shell, be provided with glass bulb and detect station and filament extraction station, glass bulb detects the support that station comprises the movement driven by cylinder, be slidably arranged in the feeler lever with only face on the guide rail of support, being provided with below of guide rail of support stops face, the only face of feeler lever is positioned at after the only face of support, tension spring is provided with between support and feeler lever, feeler lever is provided with recess, the support of corresponding recess is provided with detection probe, filament extracts the shelf that station comprises the movement driven by cylinder, the adjustable shelf of the cross slide way movement along shelf driven by cylinder, be arranged on adjustable shelf by cylinder and tooth bar the filament power clamp of gear driven, the frame that the driving handle of filament folder is other is provided with filament folder and opens driving mechanism, frame is provided with the power driving lever resetted by filament lifting arm.

4. the modified node method of the cell-shell standing part of the squeezing machine of production bulb according to claim 1 and 2, it is characterized in that filament and cell-shell are fired clamp station and comprised filament support and fire mechanism and cell-shell clamp mechanism, filament support is fired mechanism and is comprised two cover supports and fire movable device, the cone and a fire row that movable device drives is fired by wherein a set of support, another cone and another fire row of the drive of movable device is fired by another set of support, cell-shell clamp mechanism comprises two cover cell-shells and fires movable device, fire by wherein a set of cell-shell the mother that movable device drives to press from both sides, the sub-folder of movable device drive is fired by a set of cell-shell, frame is provided with the power driving lever resetted by filament lifting arm.

5. the modified node method of the cell-shell standing part of the squeezing machine of production bulb according to claim 3, it is characterized in that filament and cell-shell are fired clamp station and comprised filament support and fire mechanism and cell-shell clamp mechanism, filament support is fired mechanism and is comprised two cover supports and fire movable device, the cone and a fire row that movable device drives is fired by wherein a set of support, another cone and another fire row of the drive of movable device is fired by another set of support, cell-shell clamp mechanism comprises two cover cell-shells and fires movable device, fire by wherein a set of cell-shell the mother that movable device drives to press from both sides, the sub-folder of movable device drive is fired by a set of cell-shell, frame is provided with the power driving lever resetted by filament lifting arm.